Description
10B-G2F5 Rubber Top Chain: Precision Elastomeric Conveyance
In the intricate landscape of industrial logistics, the 10B-G2F5 Rubber Top Roller Chain stands as a pivotal solution for non-marring material transport. Unlike standard transmission chains that prioritize brute torque transfer, this component synthesizes the structural integrity of carbon steel with the gentle, high-friction properties of a vulcanized elastomeric interface. “10B” denotes its adherence to ISO 606 standards with a 15.875 mm (5/8 inch) pitch, while “G2F5” identifies the specific geometric profile of the rubber superstructure bonded to the link plates.
This hybrid architecture addresses a fundamental engineering paradox: how to convey fragile or finished goods with positive traction while eliminating surface trauma. It is the lifeblood of systems where slippage is unacceptable, yet clamping pressure must be minimized.
▍Dimensional Metrology: 10B-G2F5 Rubber Top Chain
Precision in automated assembly lines is non-negotiable. The dimensional fidelity of the 10B-G2F5 ensures synchronization between the drive sprockets and the conveyance surface. Below are the critical kinematic measurements.
| Chain No. | Pitch | Roller Dia | Inner Width | Pin Dia | Pin Length | Plate & Attachment Geometry | Tensile Strength | Mass | ||||
| P | d1 max | b1 min | d2 max | L max | h2 max | A | B | H | T | Q min | q | |
| mm | mm | mm | mm | mm | mm | mm | mm | mm | mm | kN/lbf | kg/m | |
| 10B-G2F5 Chain | 15.875 | 10.16 | 9.65 | 5.08 | 39.7 | 14.70 | 33.30 | 30.00 | 25.3 | 1.50 | 44.5 / 10004 | 2.58 |
▍Technical Specifications & Material Composition
The efficacy of the 10B-G2F5 relies on a sophisticated material selection process designed to combat fatigue failure while maintaining viscoelastic properties in the top profile.
- Core Metallurgy: Constructed from premium Alloy Steel (40Mn, 42CrMo) or Austenitic Stainless Steel (SS304, SS316) for environments requiring oxidation resistance.
- Elastomeric Profile: Utilizes NBR (Nitrile Butadiene Rubber) for oil resistance or NR (Natural Rubber) for maximum friction coefficients.
- Durometer Ratings: Configurable Shore A hardness (65-75 for grip; 75-85 for wear resistance).
- Tribological Surface Treatment: Options include Shot Peening to induce compressive residual stress, Blackening, or Zinc/Nickel plating for corrosion mitigation.
| Product Nomenclature | 10B-G2F5 Rubber Top Chain (Elastomer-Bonded Roller Chain) |
| Material Configuration | 1. Stainless Variants: SS304, SS316 (Food/Pharma grade) |
| 2. Structural Steel: 45Mn, 42CrMo, 20CrMo (High Fatigue Cycle) | |
| 3. Polymer Matrix: NR, NBR (Vulcanized integration) | |
| 4. Bespoke OEM Metallurgy per client specification | |
| Surface Engineering | Shot peening, Chemical Blackening, Passivation, Polishing, Galvanization. |
| Performance Characteristics | High Stiction, Acoustic Damping, Thermal Stability, Oil Resistance. |
| Standards Compliance | ISO 606, DIN 8187, ANSI B29.1 |
| Logistics | Fumigated Wooden Cases / Palletized Containers. Lead time: 20-45 days based on volume. |
▍10B-G2F5 Rubber Top Chain: Engineering Features
The 10B-G2F5 is not merely a chain; it is a composite system. Its manufacturing involves precision heat treatment and mechanical bonding techniques that result in a component capable of withstanding dynamic loads while protecting the payload.
1. Tensile Resilience and Fatigue Life
Through rigorous heat treatment, the link plates and pins achieve an optimal balance of ductility and hardness. This results in high tensile strength (minimum 44.5 kN), ensuring the chain resists elongation over extended duty cycles.
2. Elastomeric Damping and Protection
The rubber top profile serves a dual purpose. Primarily, it offers a non-slip surface crucial for inclined conveyance or rapid acceleration/deceleration. Secondarily, the polymer acts as a harmonic damper, absorbing micro-vibrations and significantly reducing operational noise—a critical factor in modern, regulation-compliant factories.
3. Solid Roller Kinematics
Utilizing a solid roller design rather than a curled bushing minimizes the “polygonal effect” (chordal action) as the chain engages the sprocket. This ensures smoother articulation, reduced wear on the sprocket teeth, and higher efficiency in power transmission.
4. Versatility in Harsh Environments
Whether facing the abrasive dust of a woodworking shop or the humidity of a food processing plant, the 10B-G2F5’s adaptable metallurgy and polymer selection allow it to maintain performance integrity where lesser chains would succumb to corrosion or delamination.
 |  |
▍Application Scenarios: Where Friction Meets Finesse
The 10B-G2F5 is deployed in sectors where the conveyed product is either fragile, finished, or geometrically challenging to grip with steel alone.
(1) Precision Woodworking & Timber Processing
In the transport of sanded plywood, veneers, or composite boards, steel contact would mar the surface. The G2F5 profile provides the necessary “stiction” to feed planers and saws without indenting the soft wood grain, ensuring a pristine finish.
(2) Vitrification and Glass Handling
Glass manufacturing demands a delicate touch. The rubber top mitigates the risk of brittle fracture by cushioning shock loads. Furthermore, the high friction coefficient prevents sheet glass from sliding dangerously during transport.
(3) Ceramics and Kiln Logistics
Transporting greenware (unfired clay) or finished glazed tiles requires stability. The rubber top chain absorbs conveyor vibrations that could otherwise lead to micro-cracking or product misalignment before firing.
(4) Food Processing & Packaging
In sanitary environments, the chain facilitates the movement of packaged goods. The NBR rubber variant offers resistance to fats and oils, while the stable platform ensures that packaging integrity is maintained through labeling and boxing stages.
 |  |
▍System Integration: Sprockets for 10B-G2F5 Chain
A chain is only as effective as its drive mechanism. The 10B-G2F5 chain operates in a symbiotic relationship with precision-machined sprockets. While the rubber top interacts with the payload, the underlying roller chain engages with the sprocket teeth to transmit torque.
It is imperative to utilize sprockets manufactured from high-carbon steel with hardened teeth (induction hardened to HRC 45-55) to match the wear life of the chain. Mismatched geometry or excessive runout in the sprocket can lead to premature elongation of the chain or delamination of the rubber pads due to erratic oscillation. Correct selection involves calculating the Pitch Diameter (PD) and ensuring the tooth profile accommodates the specific roller diameter (10.16mm) of the 10B series.
▍Global Manufacturing Excellence
We pride ourselves on engineering solutions that transcend standard catalog offerings. Specializing in bespoke configurations based on client blueprints, we deliver reliable quality and competitive economics. Our portfolio encompasses a vast array of conveyance solutions, including flat top chains, lumber conveyor chains, and precision agricultural chains. Whether you require standard ISO metrics or a custom metallurgical formulation for extreme environments, our production capabilities are aligned to meet your logistical demands with speed and precision.
